Serious-Engine/Sources/Engine/Templates/LinearAllocator.cpp

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2016-03-12 01:20:51 +01:00
/* Copyright (c) 2002-2012 Croteam Ltd.
This program is free software; you can redistribute it and/or modify
it under the terms of version 2 of the GNU General Public License as published by
the Free Software Foundation
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */
2016-03-11 14:57:17 +01:00
#ifndef SE_INCL_LINEARALLOCATOR_CPP
#define SE_INCL_LINEARALLOCATOR_CPP
#ifdef PRAGMA_ONCE
#pragma once
#endif
#include <Engine/Templates/LinearAllocator.h>
class CLABlockInfo {
public:
CListNode bi_lnNode;
INDEX bi_ctObjects; // number of objects in this block
void *bi_pvMemory; // start of block memory
void *bi_pvEnd; // end of block memory
};
// default constructor
template <class Type>
CLinearAllocator<Type>::CLinearAllocator(void)
{
la_ctAllocationStep = 256;
la_ctObjects = 0;
la_ctFree = 0;
la_ptNextFree = NULL;
}
// copy constructor
template <class Type>
CLinearAllocator<Type>::CLinearAllocator(CLinearAllocator<Type> &laOriginal)
{
ASSERT(FALSE);
}
// destructor -- frees all memory
template <class Type>
CLinearAllocator<Type>::~CLinearAllocator(void)
{
Clear();
}
// destroy all objects, and reset the allocator to initial (empty) state
template <class Type>
void CLinearAllocator<Type>::Clear(void)
{
FORDELETELIST(CLABlockInfo, bi_lnNode, la_lhBlocks, itBlock) {
// for all memory blocks
// free memory used by block (this doesn't call destructors - see note above!)
delete[] (Type *)itBlock->bi_pvMemory;
// free memory used by block info
delete &itBlock.Current();
}
la_ctObjects = 0;
la_ctFree = 0;
la_ptNextFree = NULL;
}
/* Set how many elements to allocate when stack overflows. */
template <class Type>
inline void CLinearAllocator<Type>::SetAllocationStep(INDEX ctStep)
{
la_ctAllocationStep = ctStep;
}
// allocate a new memory block
template <class Type>
void CLinearAllocator<Type>::AllocBlock(INDEX iCount)
{
ASSERT(this!=NULL && iCount>0);
//ASSERT(la_ctFree==0);
Type *ptBlock;
CLABlockInfo *pbi;
// allocate the memory and call constructors for all members
ptBlock = new Type[iCount]; // call vector constructor, for better performance
// allocate the block info
pbi = new CLABlockInfo;
// add the block to list
la_lhBlocks.AddTail(pbi->bi_lnNode);
// remember block memory and size
pbi->bi_pvMemory = ptBlock;
pbi->bi_pvEnd = ptBlock+iCount;
pbi->bi_ctObjects = iCount;
// count total number of allocated objects
la_ctObjects+=iCount;
// set up to get new objects from here
la_ctFree = iCount;
la_ptNextFree = ptBlock;
}
// allocate a new object
template <class Type>
inline Type &CLinearAllocator<Type>::New(void)
{
if (la_ctFree == 0) {
// allocate a new memory block
AllocBlock(la_ctAllocationStep);
}
Type *ptNew = la_ptNextFree;
la_ctFree--;
la_ptNextFree++;
return *ptNew;
}
template <class Type>
inline Type *CLinearAllocator<Type>::New(INDEX ct)
{
// if not enough space in current block
if (la_ctFree < ct) {
// allocate an entirely new memory block of exact that size
AllocBlock(ct);
// use it entirely
Type *ptNew = la_ptNextFree;
la_ctFree=0;
la_ptNextFree=NULL;
return ptNew;
// if there is enough space in current block
} else {
// use the space
Type *ptNew = la_ptNextFree;
la_ctFree-=ct;
la_ptNextFree+=ct;
return ptNew;
}
}
// free all objects but keep allocated space and relinearize it
template <class Type>
inline void CLinearAllocator<Type>::Reset(void)
{
// if there is no block allocated
if (la_lhBlocks.IsEmpty()) {
// do nothing
return;
// if there is only one block allocated
} else if (&la_lhBlocks.Head()==&la_lhBlocks.Tail()) {
// just restart at the beginning
la_ctFree = la_ctObjects;
la_ptNextFree = (Type*) (LIST_HEAD(la_lhBlocks, CLABlockInfo, bi_lnNode)->bi_pvMemory);
// if there is more than one block allocated
} else {
// remember how much objects were used and allocation step
INDEX ctObjectsOld = la_ctObjects;
INDEX ctAllocationStepOld = la_ctAllocationStep;
// free all blocks
Clear();
// restore the allocation step
la_ctAllocationStep = ctAllocationStepOld;
// allocate only one linear block
AllocBlock(ctObjectsOld);
}
}
// make 'for' construct for walking all objects in a linear allocator
#define FOREACHINLINEARALLOCATOR(allocator, type, pt) \
FOREACHINLIST(CLABlockInfo, bi_lnNode, allocator.la_lhBlocks, pt##itBlock) { \
for(type *pt = (type *)pt##itBlock->bi_pvMemory; pt<(type *)pt##itBlock->bi_pvEnd; pt++)
#endif /* include-once check. */